JP6553933B2 - Power control method, power control apparatus, and power control system - Google Patents

Description

  The present invention relates to a power control method, a power control apparatus, and a power control system for controlling an air conditioner in response to a request for suppressing the use of power.

  An attempt by an electric power supplier and an electric power supplier such as an aggregator to request a consumer to suppress the consumption of electric power is known as a demand response (hereinafter referred to simply as "DR"). Yes. Patent Document 1 proposes adjusting the power consumption by controlling the air conditioner with respect to the DR.

JP 2013-066452 A

  However, if the power consumption of the air conditioner is adjusted with respect to DR, the power consumption temporarily increases in order to adjust the temperature originally set before the target time of DR after the release of DR. For this reason, there is a possibility that the instantaneous power consumption after the DR release exceeds the allowable maximum value.

  Accordingly, an object of the present invention made in view of such circumstances is to provide a power control method, a power control apparatus, and a power control system that reduce the peak of used power after canceling the use power suppression request such as DR. There is.

In order to solve the above-described problems, the power control method according to the first aspect is
A first acquisition step of acquiring a suppression request of power consumption of a load device including at least one air conditioner which brings the indoor air temperature close to the set temperature together with a target time for which the suppression request is requested;
A second acquisition step of acquiring a first predicted value of the outdoor temperature at the end of the target time;
A first calculation step of calculating a second predicted value of the room temperature at the end of the target time;
The air conditioner after the target time based on the first predicted value of the outdoor temperature, the second predicted value of the indoor temperature, and a first set temperature set after the target time A second calculation step of calculating a third predicted value of the power consumption of
A second setting set for the target time so as to reduce the power consumption of the air conditioner after the target time when the third predicted value of the power used is equal to or higher than a threshold. And a change step for changing the temperature.

In the power control method according to the second aspect,
It is preferable to repeat the second acquisition step, the first calculation step, the second calculation step, and the change step during the target time.

In the power control method according to the third aspect,
In the execution of the changing step, the additional cost due to the third predicted value of the used power being equal to or greater than a threshold and the used power being equal to or greater than the threshold is set for the target time It is preferable to stop when it is less than the additional cost of changing the second set temperature.

In the power control method according to the fourth aspect,
In the changing step, so as to power usage of the air-conditioning equipment after pre Symbol target time below the threshold, it is preferable to change the second set temperature set for during the target time.

In the power control method according to the fifth aspect,
A third acquisition step of acquiring a stop time of the air conditioner;
The execution of the changing step is preferably stopped when the stop time acquired in the third acquiring step is within the target time or within a predetermined range from the end of the target time.

In the power control method according to the sixth aspect,
In the second acquisition step, the first predicted value of the outdoor air temperature at the end of the target time is acquired by at least one of calculation based on the transition of the measured value of the outdoor air temperature and communication via a network. It is preferable.

In the power control method according to the seventh aspect,
In the first calculation step, the second predicted value of the indoor air temperature at the end of the target time is a measured value of the indoor air temperature, a measured value of the outdoor air temperature, and a transition of a preset temperature set in the past. It is also preferable to calculate based on at least one of the second set temperatures set for the target time.

In the power control method according to the eighth aspect,
In the second calculation step, the third predicted value of the electric power used by the air conditioner after the target time is determined by setting the room temperature to the target time at the end of the target time. It is preferable that the predicted value of the electric power used by the air conditioner to be close to the set temperature of 2.

The power control apparatus according to the ninth aspect is
A first acquisition unit configured to acquire, together with a target time at which the suppression request is requested, a suppression request for power use of a load device including at least one air conditioner that brings the indoor air temperature close to the set temperature;
A second acquisition unit for acquiring a first predicted value of the outdoor temperature at the end of the target time;
Calculating a second predicted value of the indoor air temperature at the end of the target time, and setting the second predicted value of the outdoor air temperature and the second predicted value of the indoor air temperature and after the target time Calculating a third predicted value of the used power of the air conditioner after the target time based on the first set temperature, and when the third predicted value of the used power is equal to or greater than a threshold value; A controller that changes a second set temperature set during the target time so as to reduce the electric power used by the air conditioner after the target time.

The power control system according to the tenth aspect is
At least one air conditioner that brings the room temperature close to the set temperature;
The first acquisition unit acquires the suppression request of the power usage of the load device including the air conditioner together with the target time for which the suppression request is requested, and acquires the first predicted value of the outdoor air temperature at the end of the target time Calculating a second predicted value of the indoor air temperature at the end of the target time, and calculating the second predicted value of the outdoor air temperature and the second predicted value of the indoor air temperature; based on the first set temperature set for after the target time, calculating a third prediction value of power consumption of the air-conditioning equipment after the target time, the third predicted value of the power consumption is And a control unit that changes a second set temperature set for the target time so as to reduce the power consumption of the air-conditioning equipment after the target time when it is equal to or greater than a threshold value. And a control device. That.

  According to the power control method, the power control apparatus, and the power control system according to the present invention configured as described above, it is possible to reduce the peak of used power after canceling the use power suppression request.

1 is a functional block diagram showing a schematic configuration of a power control system including a power control apparatus that executes a power control method according to an embodiment of the present invention. It is a flowchart explaining the acquisition fixed process of the measurement value which the control part of FIG. 1 performs. It is a flowchart explaining the air-conditioning control processing which the control part of FIG. 1 performs.

  Hereinafter, an embodiment to which the present invention is applied will be described with reference to the drawings.

  FIG. 1 is a functional block diagram showing a schematic configuration of a power control system including a power control apparatus that executes a power control method according to an embodiment of the present invention. In FIG. 1, solid lines connecting functional blocks indicate the flow of power. In FIG. 1, a broken line connecting each functional block represents a control signal or a flow of information to be communicated, and the broken line may be wired or wireless. For communication of control signals or information, for example, various systems such as infrared communication, short distance communication system such as ZigBee (registered trademark), and power line communication (PLC) can be used.

  The power control system 10 includes a smart meter 11, a distribution board 12, a load device 14 including at least one air conditioner 13, a power control device 15, an input unit 16, and the like.

  The smart meter 11 is connected to the power system 17 and measures the power supplied from the power system 17. The smart meter 11 can notify the power control device 15 and the operator server 18 of the measured power. The business server 18 is used by a business that supplies power, collects the amount of power used in the customer's facility, and calculates a fee and the like.

  The distribution board 12 branches the power supplied from the power system 17 into a plurality of branches and distributes the power to the load device 14.

  The air conditioner 13 is installed in any room, and adjusts the room temperature by driving a built-in heat pump. The air conditioner 13 can execute, for example, at least one of the cooling operation and the heating operation, reduces the indoor air temperature by the cooling operation, and raises the indoor air temperature by the heating operation.

  The air conditioner 13 acquires the set temperature by an instruction from the power control device 15 or a manual input to the input unit 16 of the air conditioner 13. In addition, the air conditioner 13 acquires the measured values of the indoor temperature and the outdoor temperature detected by the temperature sensor module 19 provided inside or outside. Here, the outdoor temperature is the temperature of the space where heat is exchanged between the indoor space and the heat pump. The air conditioner 13 determines the operation strength of the heat pump based on the measured values of the indoor air temperature and the outdoor air temperature when the acquired set temperature is set to the set temperature used by itself. The air conditioner 13 drives the heat pump with the determined driving strength, and adjusts the room air temperature to approach the set temperature. In addition, the air conditioner 13 notifies the power control device 15 of the set temperature that has been determined.

  The electric power used by the air conditioner 13 changes in accordance with the operating strength of the heat pump. The operating strength of the heat pump changes due to the difference between the outdoor air temperature and the indoor air temperature, and the difference between the outdoor air temperature and the set temperature. Therefore, the power consumption of the air conditioner 13 increases as the difference between the indoor air temperature and the set temperature further increases as the difference between the room air temperature and the set temperature increases.

  The load device 14 is a power load that consumes power, and includes, for example, office equipment such as lighting equipment, personal computers, and multifunction peripherals used in customer premises, and various electrical appliances such as microwave ovens and televisions. It is.

  As described above, the power control device 15 acquires the power supplied from the power system 17 from the smart meter 11 and monitors the power used in the customer's facility. Further, the power control apparatus 15 is connected to the provider server 18 via the network 20, and acquires a suppression request such as DR from the provider server 18. The power control device 15 controls the load device 14, particularly the air conditioner 13 in the present embodiment, according to the suppression request. Hereinafter, the control of the air conditioner 13 performed by the power control device 15 in response to the suppression request will be described in detail along with the configuration of the power control device 15. The power control device 15 includes a transmission / reception unit (first acquisition unit, second acquisition unit) 21, a storage unit 22, and a control unit 23.

  The transmission / reception unit 21 is, for example, an input / output interface, and obtains power usage from the smart meter 11. Moreover, the transmission / reception part 21 acquires the suppression request | requirement of the electric power usage of the load apparatus 14 from the provider server 18 with the object time for which suppression is requested | required. In addition, the transmission / reception unit 21 acquires at least one of a predicted value of the outdoor temperature and a measured value of the outdoor temperature and the indoor temperature from the temperature sensor module 19 by communication via the network 20. Moreover, the transmission / reception part 21 gives the instruction | indication which controls the air conditioner 13 and the load apparatus 14 to each apparatus.

  Furthermore, the transmission and reception unit 21 acquires the set temperature from the air conditioner 13. Furthermore, when the instantaneous value of the power used by the customer using the power control device 15 is used to calculate the electricity charge, the transmission / reception unit 21 acquires information for calculating the electricity charge from the business server 18. To do. Furthermore, the transmission / reception unit 21 acquires the stop timing of the air conditioner 13 from the input unit 16.

  The storage unit 22 is a storage medium that stores various programs or various information, and various memory devices are applied according to the type of information to be stored. The storage unit 22 stores the acquired predicted value of the outdoor air temperature. Or the memory | storage part 22 memorize | stores the measured value of indoor temperature and outdoor temperature, and preset temperature for every time of a 1 minute period, for example. Moreover, the memory | storage part 22 memorize | stores beforehand the driving intensity | strength of the air conditioning equipment 13 according to the data intrinsic | native to the air conditioning equipment 13, such as outdoor temperature, indoor temperature, preset temperature, the air conditioning capability specific to the air conditioning equipment 13, and a rated output. In addition, the storage unit 22 stores in advance the used power corresponding to the driving strength of the air conditioner 13. In addition, the storage unit 22 stores in advance a reference threshold used for comparison with the power consumption.

  The control unit 23 is configured by causing a dedicated microprocessor or a general-purpose CPU to read a program that executes a specific function, and controls each part of the power control device 15.

  When the transmission / reception unit 21 acquires the suppression request, the control unit 23 determines the operation method of the load device 14 including the air conditioner 13 by various determination methods in response to the suppression request. The control unit 23 determines the set temperature during the target time for the air conditioner 13. The control unit 23 notifies each of the load devices 14 of the determined driving method.

  Moreover, the control part 23 acquires the predicted value of the outdoor air temperature of the last of object time, when the transmission / reception part 21 acquires a suppression request | requirement. The predicted value of the outdoor temperature at the end of the target time can be obtained by various methods. For example, the control unit 23 stores the statistical moving average and the multiple regression based on the transition of the measured value of the outdoor temperature stored in the storage unit 22, for example, the transition of the outdoor temperature for the past several days and the transition of the outdoor temperature on that day. The predicted value of the outdoor air temperature may be acquired by calculating using a model and an estimation formula created by a neural network or the like. Or the control part 23 may acquire the predicted value of outdoor temperature from the server which provides weather information via the network 20 as mentioned above. Alternatively, the control unit 23 estimates the outdoor air temperature in the vicinity of the outdoor unit of the customer with higher accuracy by using the past predicted value of the outdoor air temperature acquired from the server providing the weather information for creating the above-mentioned estimation formula. It is also possible to do.

  The control unit 23 also calculates a predicted value of the room temperature at the end of the target time when the transmission / reception unit 21 acquires the suppression request. The predicted value of the room temperature at the end of the target time can be calculated by various methods. For example, the control unit 23 stores the statistical moving average, the multiple regression model, and the transition of the measured values of the indoor temperature and the outdoor temperature, the transition of the set temperature, and the current set temperature, which are stored in the storage unit 22. The predicted value of the room temperature may be calculated using an estimation formula created by a neural network or the like. Alternatively, the control unit 23 may use the current set temperature acquired from the air conditioner 13, in other words, the set temperature set for the target time, as the calculated predicted value of the indoor air temperature.

  Further, the control unit 23 calculates the predicted outdoor air temperature at the end of the acquired target time, the calculated predicted indoor air temperature at the end of the target time, and the set temperature after the target time, in other words, before the target time. The driving strength of the air conditioner 13 after the target time is calculated based on the original set temperature of The driving intensity can be calculated by various methods. For example, the control unit 23 reads out the operation intensity according to the data specific to the air conditioner 13 such as the outdoor air temperature, the room temperature, the set temperature, the air conditioning capability unique to the air conditioner 13 and the rated output from the storage unit 22. Calculate the predicted value of driving intensity.

  In addition, the control unit 23 calculates the predicted value of the power used when driving the air conditioner 13 with the calculated driving strength. The predicted value of power consumption can be calculated by various methods. For example, the control unit 23 calculates the used power by reading the used power corresponding to the driving intensity from the storage unit 22.

  Further, the control unit 23 compares the calculated used power with a threshold value. The threshold is calculated based on the reference threshold stored in the storage unit 22. The reference threshold is the maximum value of power at the moment when usage is permitted for the customer using the power control device 15. For example, the threshold value may be the reference threshold value itself, or may be calculated by subtracting a predicted value of power used for another load device 14 after the target time from the reference threshold value. In addition, when the calculated power consumption is less than the threshold value, the control unit 23 drives the air conditioner 13 at the set temperature already determined for the air conditioner 13.

  In addition, when the calculated used power is equal to or greater than the threshold, the control unit 23 reduces the used power after the end of the target time, and further causes the used power after the end of the target time to be less than the threshold. Calculate the room temperature at the end. The room temperature that causes the power consumption after the end of the target time to be less than the threshold value can be calculated by various methods. For example, after the end of the target time, the calculation of the operating power of the air conditioner 13 after the target time and the calculation of the power used based on the operating strength and the comparison between the power used and the threshold are repeated for the temporary room temperature. It is possible to calculate the room temperature at the end of the target time which causes the power consumption to be less than the threshold. Alternatively, the room temperature may be calculated using the correspondence stored in the storage unit 22 based on the operation intensity of the air conditioner 13 when the threshold is used power, the predicted value of the outdoor air temperature, and the set temperature.

  In addition, the control unit 23 calculates a set temperature to be set during the target time, which brings the actual indoor temperature at the end of the target time close to the calculated room temperature. The control unit 23 notifies the air conditioner 13 of the calculated set temperature during the target time, and changes the set temperature during the previously set target time.

  Furthermore, the control unit 23 determines whether or not to execute the change of the set temperature during the target time, as described below, based on the additional cost of the electricity bill. Usually, instantaneous power may be used to calculate the electricity bill of a consumer who uses the power control device 15. In such a case, by changing the set temperature so as to reduce the operating intensity of the air conditioner 13 during the target time according to the suppression request, the instantaneous power becomes a threshold due to the increase in the operating intensity after the target time. Additional costs may increase. The control unit 23 executes the change of the set temperature during the target time when the additional cost is less than the additional cost due to the further change of the set temperature during the target time by not responding to the suppression request. Stop.

  Furthermore, when the transmission / reception unit 21 acquires the stop time of the air conditioner 13, the control unit 23 determines whether the stop time is within the target time or within a predetermined range after the end of the target time. Is determined. The predetermined range is preferably a time which is estimated to change before the target temperature changes and the indoor air temperature approaches the vicinity of the changed set temperature, for example, 20 minutes. When the stop timing is during the target time or within a predetermined range after the end of the target time, the control unit 23 calculates the indoor temperature to reduce the power used after the target time and sets the target time. Stop performing the temperature change. Furthermore, when the stop timing is within a predetermined range after the end of the target time, the control unit 23 does not return the set temperature after the target time to the set temperature before the target time.

  The input unit 16 is, for example, an input device such as a keyboard or an input terminal such as a touch panel, and detects various inputs from the user. For example, the input unit 16 detects the stop timing of the air conditioner 13. The stop time is, for example, the closing time of the store when the power control device 15 is used in the store. Furthermore, the input unit 16 detects whether or not the instantaneous power is used to calculate the electricity bill of the customer using the power control device 15.

  Next, the process of acquiring the measured values of the outdoor air temperature and the indoor air temperature executed by the control unit 23 will be described with reference to the flowchart of FIG. The control unit 23 executes the acquisition process at a predetermined cycle such as one minute, for example.

  In step S <b> 100, the control unit 23 causes the transmission / reception unit 21 to acquire the outdoor air temperature and the actually measured values of the indoor air temperature from the temperature sensor module 19 and the set temperature from the air conditioner 13. When the outdoor air temperature, the measured value of the indoor air temperature, and the set temperature are acquired, the process proceeds to step S101.

  In step S <b> 101, the control unit 23 stores the outdoor air temperature, the measured value of the indoor air temperature, and the set temperature acquired in step S <b> 100 in the storage unit 22 in association with each other. After the outdoor air temperature, the measured values of the indoor air temperature, and the set temperature are stored, the acquisition process is terminated.

  Next, the air conditioning control process executed by the control unit 23 will be described using the flowchart of FIG. 3. After receiving the suppression request, the control unit 23 starts the air conditioning control process at the start of the target time.

  In step S200, the control unit 23 determines the set temperature during the target time of the suppression request, notifies the determined set temperature to the air conditioner 13, and changes the set temperature. When the set temperature is changed, the process proceeds to step S201.

  In step S201, the control unit 23 determines whether or not the stop time of the air conditioner 13 is within a predetermined range during the target time and after the end of the target time. When the stop timing is any one of the target time and a predetermined range after the end of the target time, the air conditioning control process is ended. When the stop time is not input, and when the stop time is out of the target time and a predetermined range after the target time, the process proceeds to step S202.

  In step S <b> 202, the control unit 23 uses the estimation formula created by the statistical moving average or the like based on the transition of the measured outdoor air temperature value stored in the storage unit 22 for the predicted outdoor air temperature at the end of the target time. Obtain by calculating. When the predicted value of the outdoor air temperature is acquired, the process proceeds to step S203.

  In step S <b> 203, the control unit 23 stores the predicted values of the indoor temperature at the end of the target time, changes in the measured values of the room temperature and the outdoor temperature, changes in the set temperature, and the current set temperature stored in the storage unit 22. Based on the above, a predicted value of the room temperature is calculated using an estimation formula created by a statistical moving average or the like. After calculating the predicted value of the room temperature, the process proceeds to step S204.

  In step S204, the control unit 23 sets the predicted outdoor air temperature at the end of the target time acquired in step S202, the predicted indoor air temperature at the end of the target time calculated in step S203, and the set temperature after the target time. Based on the operation intensity of the air conditioner 13 after the target time is calculated. In addition, the control unit 23 calculates the predicted value of the power used when driving the air conditioner 13 with the calculated driving strength. After calculating the predicted value of the power consumption, the process proceeds to step S205.

  In step S205, the control unit 23 determines whether the predicted value of the used power calculated in step S204 is equal to or greater than a threshold. If the predicted value of the used power is less than the threshold, the process skips step S206 to step S210 and proceeds to step S211. If the predicted value of the used power is equal to or greater than the threshold, the process proceeds to step S206.

  In step S206, the control unit 23 calculates the indoor temperature at the end of the target time that causes the power consumption after the end of the target time to be less than the threshold. In addition, the control unit 23 calculates a set temperature during the target time that brings the actual indoor temperature at the end of the target time closer to the calculated room temperature. When the set temperature is calculated, the process proceeds to step S207.

  In step S207, the control unit 23 determines whether or not the instantaneous value of electric power is used for calculating the basic charge of the consumer's electric charge. When the instantaneous value of power is not used, the process skips steps S208 and S209 and proceeds to step S210. If an instantaneous value of power is being used, the process proceeds to step S208.

  In step S208, the control unit 23 calculates the additional cost based on maintaining the set temperature changed in step S200 and the additional cost based on changing to the set temperature calculated in step S206. After calculating the additional cost, the process proceeds to step S209.

  In step S209, the control unit 23 determines whether or not the additional cost calculated in step S208 based on maintaining the set temperature is less than the additional cost based on changing the set temperature. Compare the additional cost based on maintaining the set temperature with the additional cost based on changing the set temperature, and the additional charge based on changing is greater than the additional charge based on maintaining (YES in S209) The process skips step S210 and proceeds to step S211 without changing the set temperature. When the additional cost based on maintaining the set temperature is less than the additional cost based on changing the set temperature (NO in S209), the process proceeds to step S210.

  In step S210, the control unit 23 notifies the set temperature calculated in step S206 to the air conditioner 13 to change the set temperature. When the set temperature is changed, the process proceeds to step S211.

  In step S211, the control unit 23 determines whether or not the end of the target time has been reached. If the end of the target time has not been reached, ie, it is still in the target time, the process returns to step S202. If the end of the target time has been reached, the air conditioning control process is ended.

  According to the power control method of the present embodiment configured as described above, when the predicted value of the used power of the air conditioner 13 after the target time is equal to or greater than the threshold, the used power after the target time is reduced. The set temperature during the target time can be changed. Therefore, it is possible to reduce the peak of the used power after the target time, that is, after the release of the suppression request. Therefore, when the power consumption exceeds the threshold value, it is possible to prevent the interruption of the power supply due to the interruption of the breaker or the significant increase of the electricity cost.

  Further, according to the power control method of the present embodiment, during the target time, the prediction of the outdoor temperature, the calculation of the prediction value of the indoor temperature, and the prediction of the outdoor temperature and the indoor temperature are performed after the target time. The calculation of the predicted value of the used power of the air conditioner 13 and the change of the set temperature when the predicted value of the used power is greater than or equal to the threshold value can be repeated. Therefore, an increase in power consumption after the target time can be suppressed regardless of the length of the target time. For example, when the target time is relatively long, during the target time, factors affecting the power consumption after the target time may change. On the other hand, according to the power control method of the present embodiment, the predicted value of used power that is updated as needed is compared with a threshold value by repeating the above-described operation, so that the total used power during and after the target time Can be reduced.

  Further, according to the power control method of the present embodiment, when the additional cost due to the predicted value of the used power being equal to or higher than the threshold exceeds the additional cost due to the change of the set temperature, the change of the set temperature is stopped. , Consumer financial losses can be reduced.

  Further, according to the power control method of the present embodiment, the change of the set temperature is stopped when the stop time of the air conditioner 13 is within the target time or within a predetermined range from the end of the target time. Therefore, in the case where the adjustment of the room temperature becomes unnecessary after the target time, the change of the useless set temperature during the target time is prevented.

  Although the present invention has been described based on the drawings and embodiments, it should be noted that those skilled in the art can easily make various changes and modifications based on the present disclosure. Therefore, it should be noted that these variations and modifications are included in the scope of the present invention.

  For example, in the present embodiment, the power control device 15 is configured to control the load device 14 possessed by a single customer, but the power control device 15 is configured to control the load device 14 possessed by a plurality of customers. May be. For example, the power control device 15 can be used in an apartment house, and in that case, the control of the air conditioner 13 may be performed for each consumer.

  Further, in the present embodiment, the power control device 15 is configured to adjust the power consumption of the air conditioner 13 by changing the set temperature, but the power consumption is changed by either switching on and off the power supply or changing the air volume. The structure to adjust may be sufficient.

DESCRIPTION OF SYMBOLS 10 power control system 11 smart meter 12 distribution panel 13 air conditioner 14 load apparatus 15 power control apparatus 16 input part 17 electric power system 18 operator server 19 temperature sensor module 20 network 21 transmission / reception part 22 storage part 23 control part

Claims (10)

A first acquisition step of acquiring a suppression request of power consumption of a load device including at least one air conditioner which brings the indoor air temperature close to the set temperature together with a target time for which the suppression request is requested;
A second acquisition step of acquiring a first predicted value of the outdoor temperature at the end of the target time;
A first calculation step of calculating a second predicted value of the room temperature at the end of the target time;
The air conditioner after the target time based on the first predicted value of the outdoor temperature, the second predicted value of the indoor temperature, and a first set temperature set after the target time A second calculation step of calculating a third predicted value of the power consumption of
The second setting set for the target time so as to reduce the power used by the air conditioner after the target time when the third predicted value of the power used is equal to or greater than a threshold value. A power control method comprising: a change step for changing the temperature. The power control method according to claim 1,
A power control method comprising repeating the second acquisition step, the first calculation step, the second calculation step, and the change step during the target time. The power control method according to claim 1 or 2,
In the execution of the changing step, the additional cost due to the third predicted value of the used power being equal to or greater than a threshold and the used power being equal to or greater than the threshold is set for the target time A power control method characterized by stopping when it is less than the additional cost of changing the second set temperature. The power control method according to claim 1 or 2,
In the changing step, so as to power usage before Symbol the air-conditioning equipment after target time below the threshold, power and changes the second set temperature set for during the target time Control method. A power control method according to any one of claims 1 to 4,
A third acquisition step of acquiring a stop time of the air conditioner;
The execution of the change step is stopped when the stop time acquired in the third acquisition step is within the target time or within a predetermined range from the end of the target time. Control method. A power control method according to any one of claims 1 to 5,
In the second acquisition step, the first predicted value of the outdoor air temperature at the end of the target time is acquired by at least one of calculation based on the transition of the measured value of the outdoor air temperature and communication via a network. A power control method characterized by the above. The power control method according to any one of claims 1 to 6,
In the first calculation step, the second predicted value of the indoor air temperature at the end of the target time is a measured value of the indoor air temperature, a measured value of the outdoor air temperature, and a transition of a preset temperature set in the past. And calculating based on at least one of the second set temperatures set for the target time. The power control method according to any one of claims 1 to 7,
In the second calculation step, the third predicted value of the electric power used by the air conditioner after the target time is determined by setting the room temperature to the target time at the end of the target time. It is an estimated value of the used electric power of the said air conditioning equipment made to approach the preset temperature of 2. The electric power control method characterized by the above-mentioned. A first acquisition unit configured to acquire, together with a target time at which the suppression request is requested, a suppression request for power use of a load device including at least one air conditioner that brings the indoor air temperature close to the set temperature;
A second acquisition unit for acquiring a first predicted value of the outdoor temperature at the end of the target time;
Calculating a second predicted value of the indoor air temperature at the end of the target time, and setting the second predicted value of the outdoor air temperature and the second predicted value of the indoor air temperature and after the target time Based on the first set temperature, a third predicted value of the power consumption of the air conditioner after the target time is calculated, and when the third predicted value of the power consumption is equal to or greater than a threshold , A power control apparatus comprising: a control unit that changes a second set temperature set for the target time so as to reduce the power used by the air conditioner after the target time. At least one air conditioner that brings the room temperature close to the set temperature;
The first acquisition unit acquires the suppression request of the power usage of the load device including the air conditioner together with the target time for which the suppression request is requested, and acquires the first predicted value of the outdoor air temperature at the end of the target time Calculating a second predicted value of the indoor air temperature at the end of the target time, and calculating the second predicted value of the outdoor air temperature and the second predicted value of the indoor air temperature; A third predicted value of the used power of the air conditioner after the target time is calculated based on the first set temperature set for the target time after, and the third predicted value of the used power is And a control unit that changes a second set temperature set for the target time so as to reduce the power consumption of the air-conditioning equipment after the target time when it is equal to or greater than a threshold value. Power control characterized by comprising a control device Your system.

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